Welding apparatus



Sept- 12, 1944. o. c. FREDERICK 2,358,155

WELDING APPARATUS Filed July 26V, 1940 2 Sheets-Sheet l Inventor-c de (35cm` C. Frederick,

vl---iis Att-Jorn ey.

sept. 12, 1944.

O. C. FREDERICK WELDING APPARATUS 2 Sheets-Sheet 2 60 Fig. -Las 80a H4A ,q v l E i lo:

Inventor;

His Attorney.

Patented Sept. 12, 1944 WELDING APPARATUS Oscar C. Frederick, Springfield, Pa., assignor to General Electric Company, a corporation of New York Application July 26, 1940, Serial No. 347,809

17 Claims.

My invention relates to welding apparatus and more especially to portable resistance welders of the type known as welding guns.

Portable welding means, especially arranged for spot welding members together as parts of automobile bodies and fabricated sheetI metal structures, for example, have been constructed and used. Inasmuch as large currents are required to weld even light articles, relatively large and heavy current-carrying cables are required for conducting the welding current to the electrodes. If cables sufficiently small and flexible to permit free manipulation are provided, electric energy losses are excessive. If large cables are employed, the apparatus is rendered relatively inflexible so that it is diflicult to manipulate and adjust the gun and the desired portability is lost. A compromise often resorted to hitherto is unsatisfactory because movements of the welding gun cause movement and, consequently, wear of the cables or current conductors. Further, with such an arrangement, the cables are still relatively bulky so that the gun is hard to place and hold in the desired position and therefore rapid fatigue of the operator is caused and variations in the quality of work result.

Therefore, it is an object of my invention to provide new and improved welding apparatus of the above type which is readily adjustable and easily applied to the Work and arranged so that minimum cable wear and operator fatigue result.

Further objects and advantages of my invention will become apparent as the following description proceeds and the features of novelty which characterize my invention will be pointed out with particularity in the claims annexed to and forming a part of this specification.

For a'better understanding of my invention reference may be had to the accompanying drawings in which Fig. 1 is a side View of a welding gun embodying the principles of my invention; Fig. 2 is an enlarged cross sectional view of a portion of the gun shown in Fig. 1 taken along the line 2 2 of Fig. 3; Fig. 3 is an enlarged sectional View of the gun shown in Fig. 1 taken along the line 3 3 of Fig. 1; Fig. 4 is a side view illustrating a different embodiment of my invention; Fig. 5 is an enlarged sectional view of the gun shown in Fig. 4 taken along the line 5 5 of Fig. 4; Fig. 6 is an enlarged sectional View taken along the line 6 6 of Fig. 5; and Fig. 7 is a partial view illustrating various positions to which the gun shown in Fig. 4 may be adjusted.

Referring to Fig. l of the drawings, I have provided a welding gun including a generally C- shaped frame I0 pivotally associated with and supported from a cable I3. I have provided means for selectively permitting or preventing relative pivotal ymovement between the frame I0 and the cable I3 s0 that it is unnecessary for the operator, when it is desired to adjust the gun I0 to the work, also to move the cable I3.

In the form of my invention shown in Figs. 1 to 3, inclusive, of the drawings the frame I0 is pivotally mounted with respect to the cable I3 by means oi a pvot member or support I5. In order to hold securely the frame I0 in the desired position for welding, I have provided a clamp to prevent such relative pivotal movement between the frame and the cable I3 during the welding operation. In the form of my invention shown in the drawings, the clamp is hyf draulically operated, as explained hereinafter.

Welding current is supplied to the electrodes II and I2 over an electric circuit completed by current carrying conductors included in the cable I3, the conductors terminating in terminals I6 and Il. In order pivotally to Support the frame from the terminals, which may for convenience be termed a mounting means, I have provided a pivot or swivel member I5 passing through suitable openings in the supporting portion I8 of the frame I0 and the end portions I9 and 20, respectively, of the terminals I6 and I1. The pivotal support I5 is arranged and constructed to permit selective clamping or unclamping of the frame with respect to the terminals and therefore the conductors. In the illustrated forms of my invention I have provided a hydraulically operated arrangement for carrying out the clamping function. As best shown in Fig. 3, the pivotal support I5 is hollow thereby providing a duid pas.. sage 2| extending axially thereof and which is closed at one end by a suitable plug 25a. At one end of the member I5 there is provided a piston 22 reciprocably disposed within a pressure chamber 23 formed within a casing 24. The casing is suitably secured to the terminal I6 as by means of a suitably threaded boss engaging a correspondingly threaded tap in the end portion I9 of the terminal I6. To the other end of the hollow pivotal member I5 there has been applied suitable securing means, such as a nut 25 of substantial area. Operating fluid for actuating the piston is admitted to the chamber 23 through a conduit 26. In order to provide communication between the passage 2I and the chamber 23, a plurality of apertures 2l are provided adjacent the piston 22. It will be seen that as the pressure builds up in the passage 2l and chamber 23, the piston 22 will tend to move downwardly as viewed in Fig. 3, thereby tending to draw the member I5 and nut 25 in the same direction. At the same time.' the casing 24 will tend to be forced upwardly as viewed in Fig. 3, thereby exerting an upward pressure or tightening engagement against the portion I8 of the frame I8. The two oppositely directed forces thereby cause clamping of the terminals I6 and I1 to the frame Il). Thus, member I5 not only provides a support for the frame but also serves as a part of the clamping means. In order to prevent the escape of fluid along the swivel member I5 and around the piston 22, I have provided suitable sealing means, such as cup leathers 28 and 29,

respectively. In order to prevent the formation of a vacuum between the piston 22 and the end cap 39 of the casing 24, I have lprovided a plurality of pressure equalizing passages 3| communicating between atmosphere and the space betweenthe piston 22 and the cap 30. Upon the'release of the hydraulic pressure the frame will be loosened or unclamped with respect to theterminals I6 and Il thereby permitting the frame l!) to be moved pivotally about the hollow member I5 to another position.

I prefer to make one of the electrodes, as electrode I2, movable with respect to the other electrode. Therefore, I have provided means for reciprocating the movable or reciprocable electrode I2 With respect to the xed electrode I I. As best shown in Fig. 2, electrode ,I2 is suitably carried by a block 32 having a laterally extending bracket 33, the bracket'being suitably apertured, as indicated by the numeral 34, to receive one end of a piston 35. The bracket 33 is secured in any suitable way to the piston 35. The piston is reciprocably arranged within a cylinder 33, the cylinder being defined by a sleeve suitably secured in a suitable bore in the cylinder block 3l. The cylinder block is supported from the portion I 8 of the frame IIJ by means of a bracket 38 interposed between the ange 39 ofthe member 50 and the portion I8 of the frame and suitably fastened by means of fastening means, such as bolts 43, passing throughsuitably formed openings in the brackets 38 and 33 into engagement with threaded bores in the portion I8. The inner end of the piston 35 is provided with suitable sealingnmeans as cup leathers 4I supported by a stud or ,end portion 42 of reduced diameter suitablyV secured orintegral with the piston 35. It will be seen that if the piston is moved to the left, as viewed in Fig. 2, the electrode I2 will be moved in the same direction because of the fixed relationship between the piston 35 and the electrode carrying block 32. I have provided hydraulic means for thus operating the movable electrode. There is provided a hollow tube or sleeve 43 eX- tending laterally through suitable apertures in the portion I8 and brackets 38 and 39, the tube 43 communicatingat onerend thereof with the passage 2l in the member I5 and at the other end thereof with a conduit 46 suitably connected thereto as by means of a connecting device 4l. The cylinder'head 48 Vis provided with communicating passages 49 and 5U, the latter communicating with the cylinder bore at the end of the piston 35. The conduit v4t, is connected with the passage 49 byv means ,of a suitable connecting device 46a. Thus, to move the reciprocable electrode I2 toward the electrode II and into engagement with the work to be welded, the hydraulic fluid is conducted to the cylinder bore along apath including the conduit 26, passage 2| in the hollow member I5, tube 43, conduit 4S and passages 49 and 50.

I have provided means for returning the movable electrode I2 and piston 35 to the inoperative positions thereof when the hydraulic pressure is released. For this purpose, I have provided an auxiliary cylinder 5I adjacent the pressure cylin-A der 35 and containing a reciprocable rod 52 suitably secured at one end thereof to the block 32 as by threaded engagement with a suitable aperture therein and a lock nut 53. The otherrend of the rod 52 is provided with a piston-like men ber or collar 54 which fits snugly within the cylinder 5I to insure smooth reciprocation but which has a plurality of pressure equalizing passages 55 therethrough to maintain equal pressures on both sides of the member 54'. In order to bias the rod and hence the electrode I2 toward the right, as viewed in Fig.V 2, I have provided a spring 56 in the cylinder 5I disposed between the collar 54 and the end plug 557 of the cylinder. Thus, when the pressure tending to move the electrode to the left is greater than the force of the spring 56 tending to cause the electrode to be moved to the right, the electrode will be advanced or moved to the work engaging position, whereas When the fluid pressure is less thanV the spring pressure, the electrode will be moved to the right.

As previously mentioned, there is provided an electric circuit for conducting welding current to the electrodes. As best shown in Fig. 3, a face of the end portion I9 of terminal I6 engages a face of the portion I8 of the frame i8 which is preferably integral with the arm 59 of the frame at one end thereof. The other end ofthe arm 59 carries the fixed electrode II suitably secured thereto. The electric circuit between the terminal I'I and the movable electrode includes the end portion 20 of the terminal, the member ISB, the bracket or flange 33, the bracket 38, the cylinder block 3l, the cylinder 36, the bracket 33 and the block 3?.v In order to insulate Vthe abovedescribed current paths from each other, suitable insulation is provided. A sleeve 6I is disposed about the hollow member I5 where it passes through the member 60 and the end portion 2D of the terminal II. An insulating Vwasher B2 provides insulation between the nut 25 and the end portion 20 and an insulating washer 63 provides insulation between the member B8 and the portion I8. VThe portion I8 is insulated from the brackets 38 and 39 by means of insulating washers 64 and 65, and the insulating sleeve G5. The bolts 40 are insulated from the brackets 38 and 396by means of suitable sleeves I25 and washers I2 In order to support the gun and cable I3 I have provided a supporting device 61 which may be suspended from the ceiling or the boom of a crane or in any other suitable manner. In c-rder to provide for easy manipulation of the gun and cable, I have supported the gun and cable at substantially the center ofgravity of the apparatus including the cable.

I have also provided means by which the gun and its pivotal mounting as well as the cable I3 may be rotated about the axis of the mounting andcable, that is, about an axis substantially at right angles to the axis of the pivotal mounting. VFor this purpose, I have provided an inner circular ring or bearing 68 revolving'upon ball bearings 69 within a circular carrier or outer ring.

'I8. The outer ring 'I0 is suitably secured to the support Bland the cable I3 and terminals I6 and |1 are suitably supported from the inner ring 68, the electrical conductors being suitably insulated therefrom.

In order to cool the fixed electrode, I have provided a pair of cooling fluid conveying conduits 1| Vand 12, respectively, the conduits having communication with the ends of a suitable cooling passage (not shown) extending through the arm 59 into the vicinity of the electrode l. The conduits 1| and 12 are incorporated in the cable |3. In order to cool the movable electrode, I have provided a pair of cooling fluid conveying conduits one of which is indicated by the numeral T3, the conduits also being included within the cable I3. As best shown in Fig. 2, one of the last-mentioned cables communicates with the passage 'F4 in the block 32. The cooling fluid is then circulated through the hollowed out portion le and passage '|6. In order to cool the piston 35, there is provided a passage 11, a tube 18 being disposed concentrically therein. The cooling iiuid flows from passage 16 through the tube 78, and from the open end thereof the cooling medium ficws back along the outside of the tube 18 within the passage 11. In order to permit pivotal movement of the frame I through a full 180, the fluid conveying conduits are made of a fiexible material such as rubber and sufl'iciently long to permit the desired pivotal movement.

Operation of the device is believed clear, but will be briey reviewed. When it is desired to perform a welding operation the gun is manually placed in approximately the desired position, this operation being rendered easy by reason of the use of support 61. The flow of hydraulic uid is then initiated to convey the fluid through the conduit 26. The fiuid first enters the clamping device but inasmuch as the passage 2| is in direct communication with the electrode moving cylinder 36 of the uid pressure device, the fluid flows through the clamping device without causing anyclamping action. The pressure first builds up in the cylinder 36 moving the electrode |2 to the work engaging position. As the pressure builds up successively from the cylinder 36 back towards the source of fluid, the pressure finally will build up in the chamber 23 causing clamping of the terminals and the gun in the desired position. It will be understood that this successive building up of pressures will take place substantially simultaneously in cylinder 36 and chamber 23.

From the foregoing description, it will be seen that the clamping action for preventing pivotal movement between the gun and the cable also serves to provide minimum resistance at the connections of the terminals I6 and to the adjacent parts of the welding gun and, therefore, maximum current transfer with a minimum of heating.

In Figs. 4 to 7, inclusive, there is illustrated a different embodiment of my invention. There is disclosed a welding gun comprising a frame 80 of generally C-shape having a xed electrode 8| and a reciprocable electrode 82. Welding current is supplied over an electric circuit completed by means of current carrying conductors 83 and 84. The frame 80 is pivotally connected with one of the conductors, as 83 in the illustrated embodiment, by terminal means such as a pivotal or swivel member 86 attached to the conductor 83 as by a connecting device 83a. Thus, a circuit for the fixed electrode 8| is completed through the conductor 83, Jthe terminal or mounting member 86 and the frame 80. The movable electrode 'ban |02.

82 is connected to the current carrying conductor 84 in any suitable manner, the conductor passing through a suitably arranged opening in the lower portion of the frame 80. The movable electrode is insulated from the lower bracket a of the frame by means of a anged collar of insulating material 81.

I have provided means such as a fluid operated or hydraulic motor device for reciprocating the movable or reciprocable electrode 82. The electrode 82 is secured to the upper end of a stud 88, the lower end thereof being secured to a piston rod 89 as by threaded engagement therewith and a locking nut 90. A piston 9| is supported on the lower end of the rod 89. In order to seal the space between the side walls of the piston 9| and the cylinder 92 there is provided suitable sealing means such as a cup leather 93.

In order to reciprocate the piston and hence the electrode in the upward direction, as viewed in Fig. 6, I have provided a suitable supply of hydraulic fluid which is conducted to the cylinder below the piston 9| through a conduit 94, a three way connection 95, a conduit 96, and a lpassage 9T in the walls of the cylinder 92. The conduits 94 and 96 are preferably made from a exible material such as rubber in order to permit ready pivotal movement of the gun with respect to the mounting member 88 as well as the electric current conductors 83 and 84 and the fluid supply conduits. The piston 9| is spring-biased to its lower position, as viewed in Fig. 6, by means of two springs 98 and 99 disposed in series relationship between the piston 9| and an insert |0|, a suitably formed sleeve |00 being interposed therebetween. Suitable means, not shown, is provided for controlling the ilow of fluid to the motor device.

In order to support the gun and cable |26 I have provided a support in the form of a bail |02 attached to the frame as by bolts |03 and a substantially C-shaped arm |04 pivotally connected to a slidable element |05 carried by the The arm |04 may be supported from the ceiling or the boom of a crane or in any other suitable manner.

In order to cool the frame and the fixed electrode as well as the conductor 83, I may provide suitable passages in the conductor and frame, not shown. In the arrangement shown in Figs. 4 to 7, inclusive, I prefer to conduct the cooling water to the frame by means of a flexible conduit |06. After circulating through the frame and ,k in heat exchange relationship with the xed electrode 8|, the cooling fluid such as water is withdrawn from the frame through the conduit |01 from which it passes to a T-connection |08 supported from a bracket |09, the bracket in turn being supported from the cable |26. The exhaust water passes from the T-connection through a conduit to the pivotal mounting member 86 and from thence through a fiuid conducting passage in the conductor 83. In order to cool the movable electrode 82 I have provided a fluid conveying conduit ||2 for conducting cooling fluid to a suitable passage in the stud 88 and the movable electrode 82. After circulating in heat exchange relationship with the movable electrode 82 and supporting stud 88, the water is withdrawn through a suitable passage in the current carrying conductor 84. The bracket |09 may be arranged to complete connections between the conductor'84 and a corresponding conductor in the cable |26 and between cooling iluid passages in conductor 84 and cable |26.

In order to permit selective clamping or loosening of the frame and conductor 83, I have provided mounting means Ybetween the frame and the conductor 83. For this purpose there is provided the pivotal member 86 and a fluid operated clamping means I I3 associated therewith. As shown, the frame 86 is .provided with a tongue ||4 extending into the space between the arms ||5 and IIS ofV the mounting member 86, the mounting member being slit, as indicated by the numeral II'I, in order to provide additional flexibility. In order to provide a pivotal support for the frame with respect to the mounting member 86, I have provided a hollow supporting member or pivot means I I8 extending through the arms H5 and ||6 and the tongue ||4. At one end of the member II 8 there is provided a piston IIS which is reciprocably arranged in a pressure chamber |23 within the casing I2| supported or secured to the arm |I5 as by means of an eX- ternally threaded projection |22. The other end of the hollow member ||8 is secured to the mounting member 86 by means of a nut |23 having surface engagement with the arm IIB. The operation of the clamping means is made dependent upon the operation of the motor device which imparts movement to the movable electrode by connecting the clamping'means to the iluid supply for the movable electrode at the T- connection' S5 so that hydraulic lluid is supplied to the clamping device at substantially the same time as to the cylinder 92 whereby the clamping means is operative for tightening or clamping according to the operation of the movable electrode. That is, the .clamping means operates to tighten or clamp the frame with respect to the conductor 83 as the movable electrode 82 advances into the work engaging .position and to unclamp or loosen when the uid pressure is relieved. As best seen in Fig. 5, the hollow member I IB is provided with a passage |24 having communication at one end thereof 'with the T- connection 95. The other end of passage |24 is provided with transversely extending passages |25 in order to permit the pressure fluid to pass from the passage |24 into the pressure chamber |20.

In operation the welding gun is rst placed in the approximate welding position. Then the uid for operating vthe apparatus is supplied through the conduit 94. The most direct path for the luid leads to the cylinder 32, so that Ythe pressure is iirst built up below Ythe piston 9|, as l viewed in Fig. 6, but as the electrode 82 is moved toward the electrode 8| and engages the work to be welded, the pressure is built up successively in the passage 91, conduit 96, passage |24 and nally the chamber |20. The pressure in chamber |28 causes the piston IIB Aand the lower wall of the casing I2I relatively to move apart Athus tending to squeeze the arms ||5 and |I6 toward each other thereby tightening the engagement between the frame and the mounting lmember 86 and hence the current carrying conductor 83. Power may then be appliedrto perform the welding operation in any suitable manner. In order to loosen the -connection at the end of the weld, the power is cut off and the fluid pressure sup- Vply means is released whereupon the springs 99 gun 8|] to be moved to some other desired position.

Inasmuch as the current to the Xed electrode 8| llows across the connection between the tongue ||4 and arms ||5 and H6, itis seen that the clamping action serves to provide a connection having a minimum resistance and hence a maximum current transfer with minimum heating,

I arrange the current carrying conductors 83 and 84, the cooling fluid conduits I I2, |66 and the fluid supplying conduit 94 into a single cable In view of the above description, it will be seen that I have provided a welding gun which may be swiveled or pivoted through a large angle without requiring movement of the cable I 26 and have provided a hydraulically operated system in which a fluid-operated clamp operates substantially simultaneously with, and dependent upon, the operation of the movable electrode 82. The above described apparatus makes it possible for the operator to conveniently manipulate the welding gun without being required to move the heavy current carrying conductors or the fluid conduct- Aing conduits so that it is possible to use adequately dimensioned current carrying conductors without inconveniencing the operator or inducing fatigue. However, by using the method of welding disclosed and claimed in the Patent 2,046,969 of J. H. Redmond, assigned to the same assignee as the present invention, the current carrying conductors can be reduced in size if desired whereby the maneuverability can be increased to some additional extent.

While I have shown a particular embodiment of my invention I do not desire my invention to be limited to the particular construction shown and described and I intend in the appended claims to cover all modications within the spirit and scope of my invention.

What I claim as new and desire to secure by Letters Patent in the United States is:

l. Welding apparatus comprising a frame, welding electrodes mounted ,on said frame, means including a pair of current carrying conductors with respect to said conductors, and fluid pressure operated means cooperating with said mounting means for clamping said frame with respect to one of said conductors in order to prevent relative movement between said frame and one oi lsaid conductors.

2'. Welding apparatus comprising a frame, welding electrodes mounted on said frame, means associated with one of said electrodes for-moving said one electrode with respect to the other of said electrodes, means including a pair of current carrying conductors for completing an electric circuit to said electrodes, mounting means for pivotally supporting -said frame on one of said conductors, and means cooperating with said mounting means and dependent upon operation of said moving means for clamping said frame with respect to said one of said conductors in order to prevent relative movement between said frame and one of said conductors, said clamping means being iluid-operated and being so constructed and arranged that said clamping means operates substantially simultaneously with said moving means.

3. Welding apparatus comprising a frame, welding electrodes carried thereby, a fluid pressure operated device for causing said electrodes to engage with work to be welded, an electric circuit including a pair of conductors for supplying Welding current to said electrodes, means for conveying fluid to said device, mounting means for said frame and said conductors, the aforementioned parts being yso arranged that said frame is pivotally movable with respect to said conductors, fluid pressure operated clamping -means for clamping said frame with respect to said conductors, means communicating between said clamping means and said fluid conveying means for conveying uid to said clamping means and adapted to cause said clamping means to operate at substantially the same time as said device and also responsive to the iiow of iluid to said device.

4. Welding apparatus comprising a frame, welding electrodes mounted thereon, means associated with one electrode for moving said one electrode with respect to the other of said electrodes, electric circuit means including a pair of conductors for supplying welding current to said electrodes, terminal means arranged and constructed for connecting one of said conductors to said frame, said terminal means being constructed and arranged to provide pivotal movement between said frame and said one of said conductors, and means cooperating with said terminal means and dependent upon operation of said moving means for tightening the engagement between said terminai means and said frame to prevent such pivotal movement.

5. Welding apparatus comprising a frame, welding electrodes mounted thereon, means associated with one electrode for moving said one electrode with respect to the other of said electrodes, electric circuit means including a pair of conductors for supplying welding current to said electrodes, terminal means arranged and constructed for connecting one of said conductors t0 said frame, said terminal means being constructed and arranged to provide pivotal movement between said frame and said one of said conductors, and fluid operated means constructed and arranged for operating said moving means for causing said electrodes to engage the work and also for clamping said frame to said terminal means.

6. Welding apparatusY comprising a frame, welding electrodes mounted thereon, means associated with one electrode for moving said one electrode with respect to the other of said electrodes, electric circuit means including a pair of conductors for supplying welding current to said electrodes, terminal means for connecting one of said conductors to said frame, said means being constructed and arranged to provide pivotal movement between said frame and said one of said conductors, and clamping means constructed and arranged for clamping said frame to said terminal means in response to the advance of said one of said electrodes into a work engaging position.

7. Welding apparatus comprising a frame, welding electrodes mounted thereon, means associated with one electrode for moving said one electrode with respect to the other of said electrodes, electric circuit means including a pair of conductors for supplying welding current to said electrodes, terminal means for connecting one of said conductors to said frame, said means being constructed and arranged to provide pivotal movement between said frame and said one of said conductors, and means for clamping said frame to said terminal means or for permitting pivotal movement of said frame according to the movement of said one electrode.

8. Welding apparatus comprising a frame, welding electrodes mounted on said frame, an electric circuit including a pair of conductors for supplying welding current to said electrodes, terminal means for attaching one of said conductors to said frame, means providing a pivotal connection between said one of said conductors and said frame, and clamping means for selectively permitting or preventing pivotal movement between said frame and said terminal means, said selective means including a member serving as a pivot and extending through said terminal means and a portion of said frame, a uid pressure chamber associated with said member, a piston in saidl chamber and attached to said member, and means for admitting fluid to said chamber for actuating said piston to clamp said frame to said terminal means.

9. Welding appara-tus comprising a frame, welding electrodes mounted on said frame, an electric circuit including a pair of conductors for supplying welding current to said electrodes, terminal means for attaching one of said conductors to said frame, means providing a pivotal connection between said one of said conductors and said frame, and clamping means for selectively permitting or preventing pivotal movement between said frame and said terminal means, said selective means including a hollow member serving as a pivot and extending through said terminal means and a portion of said frame, a iluid pressure chamber associated with said member, a piston in said chamber and attached to said member, and means for admitting fluid through said hollow member to said chamber for actuating said piston to clamp said frame to said terminal means.

10. Welding apparatus comprising a frame, welding electrodes mounted on said frame, a cable including a pair oi current carrying conductors for completing an electric circuit to said electrodes, means associated with said frame and said cable for providing a pivotal support for said name, fluid-operated means for clamping said frame for preventing pivotal movement between said frame and said cable, said cable also comprising means for conducting fluid to said clamping means to permit selective clamping or unclamping thereof.

11. Welding apparatus comprising a frame, welding electrodes mounted on said frame, a fluid-operated means associated with one electrode for causing moving thereof with respect to the other electrode, a cable including a pair of conductors for completing an electric circuit to said electrodes, means associated with said cable and said frame for pivotally supporting said frame, said supporting means including a fluid-operated clamp, said cable also comprising means for conducting fluid to said clamp and also to said moving means for moving said one electrode in order to bring said electrodes into the work engaging position and for clamping said pivotal connection.

12. Welding apparatus comprising a frame, welding electrodes mounted thereon, cooling means associated with said frame and said electrodes, a fluid-operated means associated with one of said electrodes for reciprocating said one of said electrodes with respect to the other of said electrodes, a cable including a pair of conductors for completing an electric circuit to said electrodes, meansl associated with said cable and said frame for pivotally supporting said frame, duid-operatedV means for clamping said pivotal support in order to prevent relative movement between said cable and saidV frame, said cable also Vcomprising means for conducting fluid to said clamping means and said moving means and also means for conducting cooling li'uid. to said cooling means.

13. In awelder, an electrode for engaging the work; an arm for movably supporting the electrode; a conductor having an end part pivotally connected to the arm; a fluid pressure means for pressing the electrode against the work; a second fluid pressure means having clamping parts for pressing the end part of the conductor against the arm to reduce the contact resistance of the conductor; a source of supply of fluid under pressure; and means for connecting the said fluid pressure means with the said source.

14. Welding apparatus comprising a frame, l

welding electrodes mounted on said frame, means including a pair ofV conductors for Acompleting an electric circuit to said electrodes, mounting means pivotally connecting said frame to one of said conductors, said mounting means also being arranged and constructed for clamp,- ing said conductor to said frame to reduce the contact resistance therebetween, and fluid pressure means constructed and arranged selectively to cause clamping or -unclamping of said frame with respect to said conductor.

15. Welding apparatus comprising a frame, a welding electrode movably carried by said frame, fluid-pressure means for moving saidv electrode, aconductor, means for pivotally mounting said ing means also being arranged and constructed -for clamping said conductor to said frame, and

fluid pressure meansfor selectively clamping or unclamping said frame withl respect to said conductor. Y

16.` Welding apparatus comprising a vframe, a welding electrode movably carried by said frame, fluid-pressure means for moving said electrode, a conductor, means for pivotally mounting said conductor with respect Vto said `frame, said mounting .means also being arranged and constructed for clamping .said conductor to said frame, and fluidpressure means for selectively clamping or unclamping said frame with respect to said conductor, both of said fluid-pressure means being arranged and constructed to operate substantially simultaneously.

177. Welding apparatus comprising a frame, welding electrodes mounted on said frame, means including a pair of conductors for completing an electric circuit to said electrodes, means for pivotally mounting said frame relative to at least one of Said conductors, with conductiversurfaces on said frame and said one conductor in engagement with each other, means constructed and ar' ranged for cooperation with said mounting means and operable axially of said mounting means for selectively clamping or unclamping said frame with respect to said one conductor thereby permitting Vor preventing, respectively, relative pivotal movement between said frame and said one of said conductors and, when clamped, urging said surfaces together.

OSCAR, C. FREDERICK. 

